In this letter, we present an autonomous method for the placement of a sensorized wristband to victims in a
Search-And-Rescue (SAR) scenario. For this purpose, an all-terrain mobile robot includes a mobile manipulator, which
End-Effector (EE) is equipped with a detachable sensorized wristband. The wristband consists of two links with a shared
shaft and a spring. This configuration allows the wristband to maintain fixed to the EE while moving and get placed around
the victim’s forearm once the contact is produced. The method has two differentiated phases: i) The visual moving hand
tracking phase, where a 3D vision system detects the victim’s hand pose. At the same time, the robotic manipulator tracks it
with a Model Predictive Controller (MPC). ii) The haptic force-controlled phase, where the wristband gets placed around the
victim’s forearm controlling the forces exerted. The wristband design is also discussed, considering the magnitude of the force
needed for the attachment and the torque the wristband exerts to the forearm. Two experiments are carried out, one in the
laboratory to evaluate the performance of the method and the second one in a SAR scenario, with the robotic manipulator
integrated with the all-terrain mobile robot. Results show a 97.4% success in the wristband placement procedure and a
good performance of the whole system in a large scale disaster exercise